Starch degradation during germination of Civer arietinum L. seeds

J. Fernández-Tárrago; M.C. Rodríguez-Buján; G. Nicolás

J. Fernández-Tárrago

M.C. Rodríguez-Buján

G. Nicolás

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Published: 1978-03-01

Keywords:

Plants, Cycloheximide/pharmacology, Dactinomycin/pharmacology, Enzyme Repression/drug effects, Fabaceae/enzymology, Medicinal, Phosphorylases/antagonists and inhibitors/metabolism, Seeds/enzymology, Starch/metabolism

How to Cite

Starch degradation during germination of Civer arietinum L. seeds. (1978). Revista Española De Fisiología, 34(1), 87-92. https://revistas.unav.edu/index.php/ref/article/view/49614

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Abstract

The variations in starch and soluble sugar content, in phosphorylase and amylase activities in cotyledons of germinating seeds of Cicer arietinum L. are determined. Results from various experiments prove that the alpha-amylases are chiefly responsible for amylase activity. Phosphorylase plays an important rÃ´le during the first two days of germination, but it is relegated to a secondary position as the amylase activity increases. Disc electrophoresis on polyacrylamide gel shows the existence of a phosphorylase throughout germination, and detects two alpha-amylases after 48 and 96 h germination respectively. The increase in alpha-amylase activity during germination is due to de novo synthesis of the two isoenzymes, since both are inhibited by cycloheximide and actinomyces D. This de novo synthesis depends on some embryo produced factor, unreplaceable either by giberellic acid or by kinetin.

Keywords:

Plants, Cycloheximide/pharmacology, Dactinomycin/pharmacology, Enzyme Repression/drug effects, Fabaceae/enzymology, Medicinal, Phosphorylases/antagonists and inhibitors/metabolism, Seeds/enzymology, Starch/metabolism